#!/usr/bin/python
# -*- coding: utf-8 -*-
###############################################################################
# conkyForecast.py is a (not so) simple (anymore) python script to gather 
# details of the current weather for use in conky.
#
#  Author: Kaivalagi
# Created: 13/04/2008

from datetime import datetime, timedelta
from optparse import OptionParser
from xml.dom import minidom
import sys
import os
import socket
import urllib2
import gettext
import locale
import re
import codecs
import traceback
import time
import uuid

# cPickle is a pickle class implemented in C - so its faster
# in case its not available, use regular pickle
try:
    import cPickle as pickle
except ImportError:
    import pickle

app_name = "conkyForecast"
app_path = os.path.dirname(os.path.abspath(__file__))
module_name = __file__.replace(os.path.dirname (__file__) + "/", "").replace(".pyc","").replace(".py", "")

# default to standard locale translation
domain = __file__.replace(os.path.dirname (__file__) + "/", "").replace(".py", "")
localedirectory = os.path.dirname(os.path.abspath(__file__)) + "/locale"
gettext.bindtextdomain(domain, localedirectory)
gettext.textdomain(domain)
gettext.install(domain)

class CommandLineParser:

    parser = None

    def __init__(self):

        self.parser = OptionParser()
        self.parser.add_option("-l", "--location", dest="location", default="UKXX0103", type="string", metavar="CODE", help=u"location code for weather data [default: %default],Use the following url to determine your location code by city name: http://xoap.weather.com/search/search?where=Norwich")
        self.parser.add_option("-d", "--datatype", dest="datatype", default="HT", type="string", metavar="DATATYPE", help=u"[default: %default] The data type options are: DW (Day of Week), WF (Weather Font output), WI (Weather Icon Path), LT (Forecast:Low Temp,Current:Feels Like Temp), HT (Forecast:High Temp,Current:Current Temp), CC (Current Conditions), CT (Conditions Text), PC (Precipitation Chance), HM (Humidity), VI (Visibility), WD (Wind Direction), WA (Wind Angle - in degrees), WS (Wind Speed), WG (Wind Gusts), BF (Bearing Font), BI (Bearing Icon Path), BS (Bearing font with Speed), CN (City Name), CO (Country), OB (Observatory), SR (SunRise), SS (SunSet), DL (DayLight), MP (Moon Phase), MF (Moon Font), MI (Moon Icon Path), BR (Barometer Reading), BD (Barometer Description), UI (UV Index), UT (UV Text), DP (Dew Point), WM (weather map fetch and image path returned),  LU (Last Update at weather.com), LF (Last Fetch from weather.com). Not applicable at command line when using templates.")
        self.parser.add_option("-s", "--startday", dest="startday", type="int", metavar="NUMBER", help=u"define the starting day number, if omitted current conditions are output. Not applicable at command line when using templates.")
        self.parser.add_option("-e", "--endday", dest="endday", type="int", metavar="NUMBER", help=u"define the ending day number, if omitted only starting day data is output. Not applicable at command line when using templates.")
        self.parser.add_option("-S", "--spaces", dest="spaces", type="int", default=1, metavar="NUMBER", help=u"[default: %default] Define the number of spaces between ranged output. Not applicable at command line when using templates.")
        self.parser.add_option("-t", "--template", dest="template", type="string", metavar="FILE", help=u"define a template file to generate output in one call. A displayable item in the file is in the form [--datatype=HT --startday=1]. The following are possible options within each item: --location,--datatype,--startday,--endday,--night,--shortweekday,--imperial,--beaufort,--metrespersecond,--hideunits,--hidedegreesymbol,--spaces,--minuteshide. Note that the short forms of the options are not supported! If any of these options is set from the commandline, it sets the default value of the option for all template items.")
        self.parser.add_option("-L", "--locale", dest="locale", type="string", help=u"override the system locale for language output (bg=bulgarian, cs=czech, de=german, es=spanish, en=english, es=spanish, fj=fijian, fr=french, it=italian, nl=dutch, pl=polish, ro=romanian, sk=slovak, more to come)")
        self.parser.add_option("-i", "--imperial", dest="imperial", default=False, action="store_true", help=u"request imperial units, if omitted output is in metric.")
        self.parser.add_option("-b", "--beaufort", dest="beaufort", default=False, action="store_true", help=u"request beaufort scale for wind speeds, if omitted output is either metric/imperial.")
        self.parser.add_option("-M", "--metrespersecond", dest="metrespersecond", default=False, action="store_true", help=u"request metres per second for wind speeds, if omitted output is either metric/imperial.")
        self.parser.add_option("-n", "--night", dest="night", default=False, action="store_true", help=u"switch output to night data, if omitted day output will be output.")
        self.parser.add_option("-w", "--shortweekday", dest="shortweekday", default=False, action="store_true", help=u"Shorten the day of week data type to 3 characters.")
        self.parser.add_option("-u", "--hideunits", dest="hideunits", default=False, action="store_true", help=u"Hide units such as mph or C, degree symbols (°) are still shown.")
        self.parser.add_option("-x", "--hidedegreesymbol", dest="hidedegreesymbol", default=False, action="store_true", help=u"Hide the degree symbol used with temperature output, this is only valid if used in conjunction with --hideunits.")
        self.parser.add_option("-m", "--minuteshide", dest="minuteshide", type="int", metavar="NUMBER", help=u"Works only with LU and LF. If present, hides the date part of the LU or LF timestamp if the day of the timestamp is today. The time part is also hidden, if the timestamp is older than minutes specified in this argument. If set to 0, the time part is always shown. If set to -1, the value EXPIRY_MINUTES from the config file is used.")
        self.parser.add_option("-c", "--centeredwidth", dest="centeredwidth", type="int", metavar="WIDTH", help=u"If used the output will be centered in a string of the set width, padded out with spaces, if the output width is greater than the setting it will be truncated")
        self.parser.add_option("-r", "--refetch", dest="refetch", default=False, action="store_true", help=u"Fetch data regardless of data expiry.")
        self.parser.add_option("-v", "--verbose", dest="verbose", default=False, action="store_true", help=u"Request verbose output, not a good idea when running through conky!")
        self.parser.add_option("-V", "--version", dest="version", default=False, action="store_true", help=u"Displays the version of the script.")
        self.parser.add_option("--errorlogfile", dest="errorlogfile", type="string", metavar="FILE", help=u"If a filepath is set, the script appends errors to the filepath.")
        self.parser.add_option("--infologfile", dest="infologfile", type="string", metavar="FILE", help=u"If a filepath is set, the script appends info to the filepath.")                

    def parse_args(self):
        (options, args) = self.parser.parse_args()
        return (options, args)

    def print_help(self):
        return self.parser.print_help()
    
    
class ForecastConfig:
    CACHE_FOLDERPATH = "/tmp/"
    CONNECTION_TIMEOUT = 5
    EXPIRY_MINUTES = 30
    TIME_FORMAT = "%H:%M"
    DATE_FORMAT = "%Y-%m-%d"
    LOCALE = "" # with no setting the default locale of the system is used
    XOAP_PARTNER_ID = "" # need config with correct partner id
    XOAP_LICENCE_KEY = "" # need config with correct licence key
    MAXIMUM_DAYS_FORECAST = 4
    AUTO_NIGHT = False
    BASE_XOAP_URL = "http://xoap.weather.com/weather/local/<LOCATION>?cc=*&dayf=10&link=xoap&prod=xoap&par=<XOAP_PARTNER_ID>&key=<XOAP_LICENCE_KEY>&unit=m"
    PROXY_HOST = None
    PROXY_PORT = 8080
    PROXY_USERNAME = None
    PROXY_PASSWORD = None


class ForecastDataset:
    def __init__(self, last_update, day_of_week, low, high, condition_code, condition_text, precip, humidity, wind_dir, wind_dir_numeric, wind_speed, wind_gusts, sunrise, sunset, moon_phase, moon_icon, bar_read, bar_desc, uv_index, uv_text, dew_point, observatory, visibility, city, country, weathermap):
        self.last_update = last_update
        self.day_of_week = day_of_week
        self.low = low
        self.high = high
        self.condition_code = condition_code
        self.condition_text = condition_text
        self.precip = precip
        self.humidity = humidity
        self.wind_dir = wind_dir
        self.wind_dir_numeric = wind_dir_numeric
        self.wind_speed = wind_speed
        self.wind_gusts = wind_gusts
        self.sunrise = sunrise
        self.sunset = sunset
        self.moon_phase = moon_phase
        self.moon_icon = moon_icon        
        self.bar_read = bar_read
        self.bar_desc = bar_desc
        self.uv_index = uv_index
        self.uv_text = uv_text
        self.dew_point = dew_point
        self.observatory = observatory
        self.visibility = visibility
        self.city = city
        self.country = country
        self.weathermap = weathermap
        
class ForecastLocation:
    timestamp = None
    
    def __init__(self, current, day, night):
        self.current = current
        self.day = day
        self.night = night
        self.timestamp = datetime.today()
        
    def outdated(self, mins):
        if datetime.today() > self.timestamp + timedelta(minutes=mins):
            return True
        else:
            return False

# start ignoring translations required at runtime
def _(text): return text

class ForecastText:

    # translatable dictionaries
    conditions_text = {
        "0": _(u"Tornado"),
        "1": _(u"Tropical Storm"),
        "2": _(u"Hurricane"),
        "3": _(u"Severe Thunderstorms"),
        "4": _(u"Thunderstorms"),
        "5": _(u"Mixed Rain and Snow"),
        "6": _(u"Mixed Rain and Sleet"),
        "7": _(u"Mixed Precipitation"),
        "8": _(u"Freezing Drizzle"),
        "9": _(u"Drizzle"),
        "10": _(u"Freezing Rain"),
        "11": _(u"Light Rain"),
        "12": _(u"Rain"),
        "13": _(u"Snow Flurries"),
        "14": _(u"Light Snow Showers"),
        "15": _(u"Drifting Snow"),
        "16": _(u"Snow"),
        "17": _(u"Hail"),
        "18": _(u"Sleet"),
        "19": _(u"Dust"),
        "20": _(u"Fog"),
        "21": _(u"Haze"),
        "22": _(u"Smoke"),
        "23": _(u"Blustery"),
        "24": _(u"Windy"),
        "25": _(u"N/A"),
        "26": _(u"Cloudy"),
        "27": _(u"Mostly Cloudy"),
        "28": _(u"Mostly Cloudy"),
        "29": _(u"Partly Cloudy"),
        "30": _(u"Partly Cloudy"),
        "31": _(u"Clear"),
        "32": _(u"Clear"),
        "33": _(u"Fair"),
        "34": _(u"Fair"),
        "35": _(u"Mixed Rain and Hail"),
        "36": _(u"Hot"),
        "37": _(u"Isolated Thunderstorms"),
        "38": _(u"Scattered Thunderstorms"),
        "39": _(u"Scattered Showers"),
        "40": _(u"Heavy Rain"),
        "41": _(u"Scattered Snow Showers"),
        "42": _(u"Heavy Snow"),
        "43": _(u"Heavy Snow"),
        "44": _(u"N/A"),
        "45": _(u"Scattered Showers"),
        "46": _(u"Snow Showers"),
        "47": _(u"Isolated Thunderstorms"),
        "na": _(u"N/A"),
        "-": _(u"N/A")
    }

    day_of_week_short = {
        "Today": _(u"Now"),
        "Monday": _(u"Mon"),
        "Tuesday": _(u"Tue"),
        "Wednesday": _(u"Wed"),
        "Thursday": _(u"Thu"),
        "Friday": _(u"Fri"),
        "Saturday": _(u"Sat"),
        "Sunday": _(u"Sun")
    }

    # font based character sets, untranslatable

    # ConkyWeather.ttf based output
    conditions_weather_font = {
        "0": u"1", #Tornado
        "1": u"2", #Tropical Storm
        "2": u"3", #Hurricane
        "3": u"n", #Severe Thunderstorms
        "4": u"m", #Thunderstorms
        "5": u"x", #Mixed Rain and Snow
        "6": u"x", #Mixed Rain and Sleet
        "7": u"y", #Mixed Precipitation
        "8": u"s", #Freezing Drizzle
        "9": u"h", #Drizzle
        "10": u"t", #Freezing Rain
        "11": u"h", #Light Rain
        "12": u"i", #Rain
        "13": u"p", #Snow Flurries
        "14": u"p", #Light Snow Showers
        "15": u"8", #Drifting Snow
        "16": u"q", #Snow
        "17": u"u", #Hail
        "18": u"w", #Sleet
        "19": u"7", #Dust
        "20": u"0", #Fog
        "21": u"9", #Haze
        "22": u"4", #Smoke
        "23": u"6", #Blustery 
        "24": u"6", #Windy
        "25": u"-", #N/A
        "26": u"f", #Cloudy
        "27": u"D", #Mostly Cloudy - night
        "28": u"d", #Mostly Cloudy - day
        "29": u"C", #Partly Cloudy - night
        "30": u"c", #Partly Cloudy - day
        "31": u"A", #Clear - night
        "32": u"a", #Clear - day
        "33": u"B", #Fair - night
        "34": u"b", #Fair - day
        "35": u"v", #Mixed Rain and Hail
        "36": u"5", #Hot
        "37": u"k", #Isolated Thunderstorms - day
        "38": u"k", #Scattered Thunderstorms - day
        "39": u"g", #Scattered Showers - day
        "40": u"j", #Heavy Rain
        "41": u"o", #Scattered Snow Showers - day
        "42": u"r", #Heavy Snow
        "43": u"r", #Heavy Snow
        "44": u"-", #N/A
        "45": u"G", #Scattered Showers - night
        "46": u"O", #Scattered Snow Showers - night
        "47": u"K", #Isolated Thunderstorms - night
        "na": u"-", #N/A
        "-": u"-" #N/A
    }

    conditions_moon_font = {
        "0": u"1",
        "1": u"N",
        "2": u"O",
        "3": u"P",
        "4": u"Q",
        "5": u"R",
        "6": u"S",
        "7": u"T",
        "8": u"U",
        "9": u"V",
        "10": u"W",
        "11": u"X",
        "12": u"Y",
        "13": u"Z",
        "14": u"0",
        "15": u"0",
        "16": u"A",
        "17": u"B",
        "18": u"C",
        "19": u"D",
        "20": u"E",
        "21": u"F",
        "22": u"G",
        "23": u"H",
        "24": u"I",
        "25": u"J",
        "26": u"K",
        "27": u"L",
        "28": u"M",
        "29": u"1",
        "N/A": u"",
        "na": u"",
        "-": u""
    }

    conditions_moon_icon = {
        "0": u"24",
        "1": u"01",
        "2": u"02",
        "3": u"03",
        "4": u"04",
        "5": u"05",
        "6": u"06",
        "7": u"07",
        "8": u"08",
        "9": u"09",
        "10": u"10",
        "11": u"11",
        "12": u"12",
        "13": u"13",
        "14": u"13",
        "15": u"13",
        "16": u"14",
        "17": u"15",
        "18": u"16",
        "19": u"17",
        "20": u"18",
        "21": u"19",
        "22": u"20",
        "23": u"21",
        "24": u"22",
        "25": u"23",
        "26": u"23",
        "27": u"23",
        "28": u"23",
        "29": u"24",
        "N/A": u"",
        "na": u"",
        "-": u""
    }
    
    # this now returns ascii code
    bearing_arrow_font = {
        "S": 0x31,
        "SSW": 0x32,
        "SW": 0x33,
        "WSW": 0x34,
        "W": 0x35,
        "WNW": 0x36,
        "NW": 0x37,
        "NNW": 0x38,
        "N": 0x39,
        "NNE": 0x3a,
        "NE": 0x3b,
        "ENE": 0x3c,
        "E": 0x3d,
        "ESE": 0x3e,
        "SE": 0x3f,
        "SSE": 0x40,
    }

    bearing_icon = {
        "calm": "00",
        "VAR": "01",
        "S": "05",
        "SSW": "06",
        "SW": "07",
        "WSW": "08",
        "W": "09",
        "WNW": "10",
        "NW": "11",
        "NNW": "12",
        "N": "13",
        "NNE": "14",
        "NE": "15",
        "ENE": "16",
        "E": "17",
        "ESE": "18",
        "SE": "19",
        "SSE": "20"
    }
        
    # New translatable strings
    # foppeh >> These arrays are here so they get translated even if they
    #           are not used in the code. 
    
    # first all about moon phases
    moon_phase = {	
	"New": _(u"New"),
	"First Quarter": _(u"First Quarter"),
	"Full": _(u"Full"),
	"Last Quarter": _(u"Last Quarter"),
	"Waning Crescent": _(u"Waning Crescent"),
	"Waning Gibbous": _(u"Waning Gibbous"),
	"Waxing Crescent": _(u"Waxing Crescent"),
	"Waxing Gibbous": _(u"Waxing Gibbous")
    }
    
    # foppeh >> Something is going on with these string. I don't know if they are valid.
    #           The weird thing is they are in lower case and the XML seems to spit
    #           text with too many Uppercase. So I don't know if strings presented here
    #           will ever be a valid output from weather.com. Yet I stored them here for
    #           future reference (and because of the French translation).
    
    # all about weather conditions
    # 'blowing dust'                 => 'tempête de sable',
    # 'blowing snow'                 => 'tempête de neige',
    # 'blowing snow and windy'       => 'blizzard',
    # 'clear'                        => 'clair     ',
    # 'cloudy'                       => 'nuageux',
    # 'cloudy and windy'             => 'nuageux et venteux',
    # 'drizzle'                      => 'bruine',
    # 'drifting snow'                => 'accumulation de neige',
    # 'fair'                         => 'clair',
    # 'fair and windy'               => 'clair et venteux',
    # 'fog'                          => 'brouillard',
    # 'haze'                         => 'smog',
    # 'heavy drizzle'                => 'bruine intense',
    # 'heavy rain'                   => 'pluie intense',
    # 'heavy rain and windy'         => 'pluie intense et venteux',
    # 'heavy snow'                   => 'neige intense',
    # 'heavy snow and windy'         => 'neige intense et venteux',
    # 'heavy t-storm'                => 'orage électrique intense',
    # 'light drizzle'                => 'faible bruine',
    # 'light drizzle and windy'      => 'bruine légère  et venteux',
    # 'light freezing drizzle'       => 'bruine légère verglassante',
    # 'light freezing rain'          => 'faible pluie verglassante',
    # 'light rain'                   => 'faible pluie',
    # 'light rain shower'            => 'faible averse de pluie',
    # 'light rain and fog'           => 'faible pluie et brouillard',
    # 'light rain and freezing rain' => 'pluie faible et pluie erglassante',
    # 'light rain with thunder'      => 'faible pluie avec tonnerre',
    # 'light rain and windy'         => 'faible pluie et venteux',
    # 'light snow'                   => 'faible neige',
    # 'light snow shower'            => 'faible averse de neige',
    # 'light snow and sleet'         => 'leichter Schneefall und Schneeregen',
    # 'light snow and windy'         => 'leichter Schneefall und windig',
    # 'mist'                         => 'brume',
    # 'mostly cloudy'                => 'nuageux avec éclaircies',
    # 'mostly cloudy and windy'      => 'venteux et nuageux avec éclaircies',
    # 'partial fog'                  => 'partiellement brumeux',
    # 'partly cloudy'                => 'partiellement nuageux',
    # 'partly cloudy and windy'      => 'partiellement nuageux et venteux',
    # 'patches of fog'               => 'partielles de brouillard',
    # 'rain'                         => 'pluvieux',
    # 'rain and sleet'               => 'pluie et grésil',
    # 'rain and snow'                => 'pluie et neige',
    # 'rain shower'                  => 'averse de pluie',
    # 'rain and fog'                 => 'pluie et brouillard',
    # 'rain and windy'               => 'pluvieux et venteux',
    # 'sand'                         => 'sable',
    # 'shallow fog'                  => 'brouillard mince',
    # 'showers in the vicinity'      => 'averses à proximité',
    # 'sleet'                        => 'grésil',
    # 'smoke'                        => 'fumée',
    # 'snow'                         => 'neige',
    # 'snow and fog'                 => 'neige et brouillard',
    # 'snow and freezing rain'       => 'neige et pluie verglassante',
    # 'snow grains'                  => 'neige intermittante',
    # 'snow showers'                 => 'averse de neige',
    # 'snow and windy and fog'       => 'neige, brouillard et venteux',
    # 'squalls and windy'            => 'vent et grésil',
    # 'sunny'                        => 'ensoleillé',
    # 'sunny and windy'              => 'ensoleillé et venteux',
    # 't-storm'                      => 'Orage Électrique',
    # 'thunder'                      => 'tonnerre',
    # 'thunder in the vicinity'      => 'tonnerre aux alentours',
    # 'unknown precip'               => 'précipitation inconnue',
    # 'widespread dust'              => 'vents de poussière',
    # 'wintry mix'                   => 'conditions hivernales variables',

    
    # some general things...
    general = {
 	"n/a": _(u"n/a"),
	'N/A': _(u"N/A"),
	'Not Available': _(u"Not Available"),
	'unknown': _(u"unknown"),
	'NONE': _(u"NONE"),
	'day': _(u"day"),
	'night': _(u"night")
    }
    
    # UV index ...
    UV_index = {
	"Extreme": _(u"Extreme"),
	"Very high": _(u"Very High"),
	"High": _(u"High"),
	"Moderate": (u"Moderate"),
	"Low": _(u"Low")
    }
    
    # tendencies used for barometric pressure
    bar_pressure = {
	"Very Low": _(u"Very Low"),
	"Moderate": _(u"Moderate"),
	"rising": _(u"rising"),
	"falling": _(u"falling"),
	"steady": _(u"steady"),
	"calm": _(u"calm")
    }


    # wind directions long
    wind_directions_long = {
	"East": _(u"East"),
	"East Northeast": _(u"East Northeast"),
	"East Southeast": _(u"East Southeast"),
	"North": _(u"North"),
	"Northeast": _(u"Northeast"),
	"North Northeast": _(u"North Northeast"),
	"North Northwest": _(u"North Northwest"),
	"Northwest": _(u"Northwest"),
	"South": _(u"South"),
	"Souteast": _(u"Southeast"),
	"South Southeast": _(u"South Southeast"),
	"South Southwest": _(u"South Southwest"),
	"Southwest": _(u"Southwest"),
	"variable": _(u"variable"),
	"West": _(u"West"),
	"West Northwest": _(u"West Northwest"),
	"West Southwest": _(u"West Southwest")
    }
    
    wind_directions_short = {
	"E": _(u"E"),
	"ENE": _(u"ENE"),
	"ESE": _(u"ESE"),
	"N": _(u"N"),
	"NE": _(u"NE"),
	"NNE": _(u"NNE"),
	"NNW": _(u"NNW"),
	"NW": _(u"NW"),
	"S": _(u"S"),
	"SE": _(u"SE"),
	"SSE": _(u"SSE"),
	"SSW": _(u"SSW"),
	"SW": _(u"SW"),
	"W": _(u"W"),
	"WNW": _(u"WNW"),
	"WSW": _(u"WSW")
    }

    days_of_week = {
	"Today": _(u"Today"),
	"Monday": _(u"Monday"),
	"Tuesday":_(u"Tuesday"),
	"Wednesday":_(u"Wednesday"),
	"Thursday": _(u"Thursday"),
	"Friday": _(u"Friday"),
	"Saturday": _(u"Saturday"),
	"Sunday": _(u"Sunday")
    }
    
# end ignoring translations
del _

class ForecastInfo:
    
    # design time variables
    options = None
    config = None
    forecast_data = {}
    # a list of locations for which an attempt was made to load them
    # locations in this list are not loaded again (if there was an error,
    # this makes sure it doesn't reapeat over and over)
    loaded_locations = []
    error = ""
    errorfound = False
    
    # design time settings
    CONFIG_FILENAME = ".conkyForecast.config"
    CACHE_FILENAME_TEMPLATE = ".conkyForecast-LOCATION.cache"

    def __init__(self, options):

        self.options = options
                                         
        self.loadConfigData()
        
        # setup timeout for connections
        # TODO: seems like this doesn't work in all cases..
        socket.setdefaulttimeout(self.config.CONNECTION_TIMEOUT)
        
        # set the locale
        if self.options.locale == None:
            if self.config.LOCALE == "":
                self.options.locale = locale.getdefaultlocale()[0][0:2]
            else:
                self.options.locale = self.config.LOCALE

        self.logInfo("Locale set to " + self.options.locale)
        
        # if not the default "en" locale, configure the i18n language translation    
        if self.options.locale != "en":

            self.logInfo("Looking for translation file for '%s' under %s" % (self.options.locale, localedirectory))
            
            if gettext.find(domain, localedirectory, languages=[self.options.locale]) != None:
                self.logInfo("Translation file found for '%s'" % self.options.locale)
                
                try:
                    trans = gettext.translation(domain, localedirectory, languages=[self.options.locale])
                    trans.install(unicode=True)
                    self.logInfo("Translation installed for '%s'" % self.options.locale)
                    
                except Exception, e:
                    self.logError("Unable to load translation for '%s' %s" % (self.options.locale, e.__str__()))
            else:
                self.logInfo("Translation file not found for '%s', defaulting to 'en'" % self.options.locale)
                self.options.locale = "en"

        # setup a proxy if defined
        if self.config.PROXY_HOST != None:
            if self.config.PROXY_USERNAME != None and self.config.PROXY_PASSWORD != None:
                self.logInfo("Setting up proxy '%s:%d', with username and password"%(self.config.PROXY_HOST,self.config.PROXY_PORT))
                proxyurl = "http://%s:%s@%s:%d"%(self.config.PROXY_USERNAME,self.config.PROXY_PASSWORD,self.config.PROXY_HOST,self.config.PROXY_PORT)
            else:
                self.logInfo("Setting up proxy '%s:%d', without username and password"%(self.config.PROXY_HOST,self.config.PROXY_PORT))
                proxyurl = "http://%s:%d"%(self.config.PROXY_HOST,self.config.PROXY_PORT)

            try:
                proxy_support = urllib2.ProxyHandler({"http" : proxyurl})
                opener = urllib2.build_opener(proxy_support, urllib2.HTTPHandler)
                urllib2.install_opener(opener)
            except Exception, e:
                self.logError("Unable to setup proxy: %s"%e.__str__())
        else:
            self.logInfo("Not using a proxy as none is defined")

        # Check if the location is loaded, if not, load it. If it can't be loaded, there was an error
        if not self.checkAndLoad(self.options.location):
            self.logError("Failed to load the location cache")
                    
    def loadConfigData(self):
        try:         
            # load .conkyForecast.config from home directory of the user
            configfilepath = os.path.join(os.path.expanduser('~'), self.CONFIG_FILENAME)
                                          
            if os.path.exists(configfilepath):
                
                self.config = ForecastConfig()
                
                #load the file
                fileinput = open(configfilepath)
                lines = fileinput.read().split("\n")
                fileinput.close() 

                for line in lines:
                    line = line.strip()
                    if len(line) > 0 and line[0:1] != "#": # ignore commented lines or empty ones

                        splitpos = line.find("=")
                        name = line[:splitpos-1].strip().upper() # config setting name on the left of =
                        value = line[splitpos+1:].split("#")[0].strip()
                        
                        if len(value) > 0:
                            if name == "CACHE_FOLDERPATH":
                                self.config.CACHE_FOLDERPATH = value
                            elif name == "CONNECTION_TIMEOUT":
                                try: # NITE: removed the isNumeric() check in favor of this..its more effective and lets the user know something is wrong
                                    self.config.CONNECTION_TIMEOUT = int(value)
                                except:
                                    self.logError("Invalid value of config option CONNECTION_TIMEOUT: " + value)
                            elif name == "EXPIRY_MINUTES":
                                try:
                                    self.config.EXPIRY_MINUTES = int(value)
                                except:
                                    self.logError("Invalid value of config option EXPIRY_MINUTES: " + value)
                            elif name == "TIME_FORMAT":
                                self.config.TIME_FORMAT = value
                            elif name == "DATE_FORMAT":
                                self.config.DATE_FORMAT = value                                    
                            elif name == "LOCALE":
                                self.config.LOCALE = value
                            elif name == "XOAP_PARTNER_ID":
                                self.config.XOAP_PARTNER_ID = value
                            elif name == "XOAP_LICENCE_KEY":
                                self.config.XOAP_LICENCE_KEY = value
                            elif name == "MAXIMUM_DAYS_FORECAST":
                                self.config.MAXIMUM_DAYS_FORECAST = int(value)
                            elif name == "AUTO_NIGHT":
                                self.config.AUTO_NIGHT = self.parseBoolString(value)
                            elif name == "BASE_XOAP_URL":
                                self.config.BASE_XOAP_URL = value
                            elif name == "PROXY_HOST":
                                self.config.PROXY_HOST = value
                            elif name == "PROXY_PORT":
                                self.config.PROXY_PORT = int(value)
                            elif name == "PROXY_USERNAME":
                                self.config.PROXY_USERNAME = value
                            elif name == "PROXY_PASSWORD":
                                self.config.PROXY_PASSWORD = value
                            else:
                                self.logError("Unknown option in config file: " + name)

                if self.options.verbose == True:
                    print >> sys.stdout,"*** CONFIG OPTIONS:"
                    print >> sys.stdout,"    CACHE_FOLDERPATH:", self.config.CACHE_FOLDERPATH
                    print >> sys.stdout,"    CONNECTION_TIMEOUT:", self.config.CONNECTION_TIMEOUT
                    print >> sys.stdout,"    EXPIRY_MINUTES:", self.config.EXPIRY_MINUTES
                    print >> sys.stdout,"    TIME_FORMAT:", self.config.TIME_FORMAT
                    print >> sys.stdout,"    DATE_FORMAT:", self.config.DATE_FORMAT                
                    print >> sys.stdout,"    LOCALE:", self.config.LOCALE
                    print >> sys.stdout,"    XOAP_PARTNER_ID:", self.config.XOAP_PARTNER_ID
                    print >> sys.stdout,"    XOAP_LICENCE_KEY:", self.config.XOAP_LICENCE_KEY
                    print >> sys.stdout,"    MAXIMUM_DAYS_FORECAST:", self.config.MAXIMUM_DAYS_FORECAST
                    print >> sys.stdout,"    BASE_XOAP_URL:", self.config.BASE_XOAP_URL
                    
            else:
                self.logError("Config data file %s not found, using defaults (Registration info is needed though)" % configfilepath)

        except Exception, e:
            self.logError("Error while loading config data, using defaults (Registration info is needed though): " + e.__str__())


    def checkAndLoad(self, location):

        # if the location was not loaded before (or attempted to load)
        if not location in self.loaded_locations:
            # add it to the list so it doesn't get loaded again (or attempted to load)
            self.loaded_locations.append(location)

            # define CACHE_FILEPATH based on cache folder and location code
            CACHE_FILEPATH = os.path.join(self.config.CACHE_FOLDERPATH, self.CACHE_FILENAME_TEMPLATE.replace("LOCATION", location))

            if not self.forecast_data.has_key(location):
                if os.path.exists(CACHE_FILEPATH):
                    try:
                        self.logInfo("Loading cache file " + CACHE_FILEPATH)
                        file = open(CACHE_FILEPATH, 'rb')
                        self.forecast_data[location] = pickle.load(file)
                        file.close()
                    except Exception, e:
                        self.logError("Unable to read the cache file %s: %s" % (CACHE_FILEPATH, e.__str__()))
                        return False
        
            # check the data in the dictionary and update if outdated
            # if there was an update, store the new data in the cache file
            if self.checkAndUpdate(location) == True:
                try:
                    self.logInfo("Saving updated cache file " + CACHE_FILEPATH)
                    file = open(CACHE_FILEPATH, 'wb')
                    pickle.dump(self.forecast_data[location], file)
                    file.close()
                except Exception, e:
                    self.logError("Unable to save cache file %s: %s" % (CACHE_FILEPATH, e.__str__()))
                    return False

        # if the location is still not in cache, print an error and return false to writeOutput()
        if self.forecast_data.has_key(location):
            return True
        else:
            self.logError("Location %s is not in cache." % self.options.location) 
            return False
        

    def checkAndUpdate(self, location):
        # if the location is outdated or the refetch is forced..
        if not self.forecast_data.has_key(location) or \
           self.forecast_data[location].outdated(self.config.EXPIRY_MINUTES) or \
           self.options.refetch == True:

            # obtain current conditions data from xoap service
            try:
                #url = "http://xoap.weather.com/weather/local/" + location + "?cc=*&dayf=10&link=xoap&prod=xoap&par=" + str(self.config.XOAP_PARTNER_ID) + "&key=" + self.config.XOAP_LICENCE_KEY + "&unit=m"
                #url = "http://xoap.weather.com/weather/local/" + location + "?cc=*&dayf=10&link=xoap&par=" + str(self.config.XOAP_PARTNER_ID) + "&key=" + self.config.XOAP_LICENCE_KEY + "&unit=m"
                #url = "http://xml.weather.com/weather/local/" + location + "?cc=*&unit=m&dayf=10&link=xoap&prod=xoap&par=" + str(self.config.XOAP_PARTNER_ID) + "&key=" + self.config.XOAP_LICENCE_KEY + "&unit=m"

                url = self.config.BASE_XOAP_URL.replace("<LOCATION>",location).replace("<XOAP_PARTNER_ID>",str(self.config.XOAP_PARTNER_ID)).replace("<XOAP_LICENCE_KEY>",self.config.XOAP_LICENCE_KEY)
                       
                self.logInfo("Fetching weather data from " + url)

                usock = urllib2.urlopen(url)
                xml = usock.read()
                usock.close()

            except Exception, e:
                self.logError("Server connection error: " + e.__str__())
                return False
            
            else:
                # interrogate weather data
                try:
                    # parse the XML
                    self.weatherxmldoc = minidom.parseString(xml)
                                    
                    weather_n = self.weatherxmldoc.documentElement
                    
                    # check for an error and raise an exception
                    if len(weather_n.getElementsByTagName('err')) > 0:
                        raise Exception, self.getText(weather_n, 'err')
                    
                    #head_n = self.getChild(weather_n, 'head')
                    #visibility_unit = self.getText(head_n, 'ud')
                    
                    location_n = self.getChild(weather_n, 'loc')
                    city, country = self.getText(location_n, 'dnam').split(',')
                    country = country.strip()
                    
                    # current conditions data
                    day_of_week = _(u"Today")
                    precip = _(u"N/A")
                    sunrise = self.getText(location_n, 'sunr')
                    sunset = self.getText(location_n, 'suns')

                    current_condition_n = self.getChild(weather_n, 'cc')
                    last_update = self.getText(current_condition_n, 'lsup')
                    observatory = self.getText(current_condition_n, 'obst')
                    # remove the ", country" from the string (the string is in form "location_name, country")
                    observatory = observatory[:observatory.rfind(',')]
                    current_desc = self.getText(current_condition_n, 't')
                    current_code = self.getText(current_condition_n, 'icon')
                    current_temp = self.getText(current_condition_n, 'tmp')
                    current_temp_feels = self.getText(current_condition_n, 'flik')
                    
                    bar_n = self.getChild(current_condition_n, 'bar')
                    bar_read = self.getText(bar_n, 'r')
                    bar_desc = self.getText(bar_n, 'd')
                    
                    wind_n = self.getChild(current_condition_n, 'wind')
                    wind_speed = self.getText(wind_n, 's')
                    wind_gusts = self.getText(wind_n, 'gust')
                    wind_direction_numeric = self.getText(wind_n, 'd')
                    wind_direction = self.getText(wind_n, 't')
                    
                    humidity = self.getText(current_condition_n, 'hmid')
                    visibility = self.getText(current_condition_n, 'vis')
                    #if self.isNumeric(visibility):
                    #    visibility = visibility + visibility_unit
                    
                    uv_n = self.getChild(current_condition_n, 'uv')
                    uv_index = self.getText(uv_n, 'i')
                    uv_text = self.getText(uv_n, 't')
                    
                    dew_point = self.getText(current_condition_n, 'dewp')
                    
                    moon_n = self.getChild(current_condition_n, 'moon')
                    moon_icon = self.getText(moon_n, 'icon')
                    moon_phase = self.getText(moon_n, 't')
                    
                    # only fetch this map image if requested via the WM datatype, this is very costly...
                    if self.options.datatype == "WM":
                        weathermap = self.getImageSrcForWeatherMap(location)
                    else:
                        weathermap = None
                    
                    current_forecast_data = ForecastDataset(last_update, day_of_week, current_temp_feels, current_temp, current_code, current_desc, precip, humidity, wind_direction, wind_direction_numeric, wind_speed, wind_gusts, sunrise, sunset, moon_phase, moon_icon, bar_read, bar_desc, uv_index, uv_text, dew_point, observatory, visibility, city, country, weathermap)
    
                    # collect forecast data
                    observatory = _(u"N/A")
                    bar_read = _(u"N/A")
                    bar_desc = _(u"N/A")
                    visibility = _(u"N/A")
                    uv_index = _(u"N/A")
                    uv_text = _(u"N/A")
                    dew_point = _(u"N/A")
                    moon_phase = _(u"N/A")
                    moon_icon = _(u"N/A")
                    
                    forecast_n = self.getChild(weather_n, 'dayf')
                    last_update = self.getText(forecast_n, 'lsup')
                    
                    day_nodes = forecast_n.getElementsByTagName('day')
                    
                    day_forecast_data_list = []
                    night_forecast_data_list = []
        
                    for day in day_nodes:
                        day_of_week = day.getAttribute('t')

                        high_temp = self.getText(day, 'hi')
                        low_temp = self.getText(day, 'low')
                        sunrise = self.getText(day, 'sunr')
                        sunset = self.getText(day, 'suns')
    
                        # day forecast specific data
                        daytime_n = self.getChild(day, 'part')
                        condition_code = self.getText(daytime_n, 'icon')
                        condition = self.getText(daytime_n, 't')

                        wind_n = self.getChild(daytime_n, 'wind')
                        wind_speed = self.getText(wind_n, 's')
                        wind_gusts = self.getText(wind_n, 'gust')
                        wind_direction_numeric = self.getText(wind_n, 'd')
                        wind_direction = self.getText(wind_n, 't')
                        
                        precip = self.getText(daytime_n, 'ppcp')
                        humidity = self.getText(daytime_n, 'hmid')
                        
                        day_forecast_data = ForecastDataset(last_update, day_of_week, low_temp, high_temp, condition_code, condition, precip, humidity, wind_direction, wind_direction_numeric, wind_speed, wind_gusts, sunrise, sunset, moon_phase, moon_icon, bar_read, bar_desc, uv_index, uv_text, dew_point, observatory, visibility, city, country, weathermap)
                        day_forecast_data_list.append(day_forecast_data)
    
                        # night forecast specific data
                        daytime_n = self.getChild(day, 'part', 1)
                        condition_code = self.getText(daytime_n, 'icon')
                        condition = self.getText(daytime_n, 't')

                        wind_n = self.getChild(daytime_n, 'wind')
                        wind_speed = self.getText(wind_n, 's')
                        wind_gusts = self.getText(wind_n, 'gust')
                        wind_direction_numeric = self.getText(wind_n, 'd')
                        wind_direction = self.getText(wind_n, 't')
                        
                        precip = self.getText(daytime_n, 'ppcp')
                        humidity = self.getText(daytime_n, 'hmid')
                        
                        night_forecast_data = ForecastDataset(last_update, day_of_week, low_temp, high_temp, condition_code, condition, precip, humidity, wind_direction, wind_direction_numeric, wind_speed, wind_gusts, sunrise, sunset, moon_phase, moon_icon, bar_read, bar_desc, uv_index, uv_text, dew_point, observatory, visibility, city, country, weathermap)
                        night_forecast_data_list.append(night_forecast_data)
                        
                    self.forecast_data[location] = ForecastLocation(current_forecast_data, day_forecast_data_list, night_forecast_data_list)
                    
                    return True
            
                except Exception, e:
                    self.logError("Error reading weather data: " + e.__str__())
                    return False

    def getTimestampOutput(self, timestamp, minuteshide):            
        # minuteshide:
        # None = disabled
        # -1 = hide days and use config.EXPIRY_MINUTES
        # 0 = hide days and always show hours
        
        output = u""
        
        today = datetime.today()
        days = today.day - timestamp.day
        if days or minuteshide == None:
            output += timestamp.strftime(self.config.DATE_FORMAT)
        
        if minuteshide == -1:
            minuteshide = self.config.EXPIRY_MINUTES
            
        delta = today - timestamp
        if days or minuteshide == None or minuteshide == 0 or delta.seconds > minuteshide * 60:
            if (len(output) > 0):
                output += " "
            output += timestamp.strftime(self.config.TIME_FORMAT)
        
        return output


    def getDatatypeFromSet(self, location, datatype, set, shortweekday, imperial, beaufort, metrespersecond, tempunit, speedunit, distanceunit, pressureunit, minuteshide, centeredwidth):
        output = u""

        try:
            if datatype == "LU":
                datetext, timezone = re.match(r"(\d{1,2}/\d{1,2}/\d{2} \d{1,2}:\d{2} [A|P]M)\s(\w*\s*\w*)",set.last_update).groups()
                if datetext != None:
                    try:
                        output = self.getTimestampOutput(datetime.strptime(datetext, "%m/%d/%y %I:%M %p"), minuteshide)
                    except:
                        self.logError("Failed to extract update datetime from data using standard code" + traceback.format_exc())
                        try:
                            self.logger.info("Attempting to extract update datetime from data using python 2.4 compliant code")
                            output = self.getTimestampOutput(datetime(*(time.strptime(datetext, "%m/%d/%y %I:%M %p"))[0:6]), minuteshide)
                        except:
                            self.logError("Failed to extract update datetime from data using python 2.4 compliant code" + traceback.format_exc())
                            output = ""
                            
                    if timezone != None and timezone != "Local Time" and len(output) > 0:
                        output = output + " " + timezone

                if len(output) == 0:
                    self.logError("Unable to extract the Last update date from the dataset, using raw text without formatting")
                    output = set.last_update.strip()
                    
            elif datatype == "LF":
                output = self.getTimestampOutput(self.forecast_data[location].timestamp, minuteshide)
            elif datatype == "DW":
                if shortweekday == True:
                    output = _(ForecastText.day_of_week_short[set.day_of_week])
                else:
                    output = _(set.day_of_week)
            elif datatype == "WF":
                output = ForecastText.conditions_weather_font[set.condition_code]
            elif datatype == "WI":
                #output = ForecastText.conditions_weather_icon[set.condition_code]
                output = self.getImagePathForConditionCode(set.condition_code)         
            elif datatype == "LT":
                if self.isNumeric(set.low) == True:
                    if imperial == True:
                        string = self.convertCelsiusToFahrenheit(set.low)
                    else:
                        string = set.low
                    string = string + tempunit
                else:
                    string = _(set.low)
                output = string
            elif datatype == "HT":
                if self.isNumeric(set.high) == True:
                    if imperial == True:
                        string = self.convertCelsiusToFahrenheit(set.high)
                    else:
                        string = set.high
                    string = string + tempunit
                else:
                    string = _(set.high)
                output = string
            elif datatype == "CC":
                output = _(ForecastText.conditions_text[set.condition_code])
            elif datatype == "CT":
                #output = _(set.condition_text)
                output = _(ForecastText.conditions_text[set.condition_code])
            elif datatype == "PC":
                if self.isNumeric(set.precip) == True:
                    string = set.precip + u"%"
                else:
                    string = _(set.precip)
                output = string
            elif datatype == "HM":
                if self.isNumeric(set.humidity) == True:
                    string = set.humidity + u"%"
                else:
                    string = _(set.humidity)
                output = string
            elif datatype == "WD":
                output = _(set.wind_dir)
            elif datatype == "BF":
                if set.wind_speed.lower() == "calm":
                    output = chr(0x25)
                else:
                    if (set.wind_dir == "VAR"):
                        output = chr(0x22) # 2nd level var arrow
                    else:
                        try:
                            # for the old datatype, add 0x10, that makes the output in the A-P range,
                            # which is the 2nd level arrow
                            output = chr(ForecastText.bearing_arrow_font[set.wind_dir] + 0x10)
                        except KeyError:
                            # if the value wasn't found in ForecastText.bearing_arrow_font, use space
                            output = "-"
            elif datatype == "BS":
                if set.wind_speed.lower() == "calm":
                    output = chr(0x25)
                elif self.isNumeric(set.wind_speed) == True:
                    if (set.wind_dir == "VAR"):
                        output = chr(0x21 + self.getWindLevel(set.wind_speed))
                    else:
                        try:
                            output = chr(ForecastText.bearing_arrow_font[set.wind_dir] + self.getWindLevel(set.wind_speed) * 0x10)
                        except KeyError:
                            # if the value wasn't found in ForecastText.bearing_arrow_font, use N/A
                            output = "-"
                else:
                    try:
                        # if the speed is not "calm" but also not a number, add 0x10
                        # that makes the output in the A-P range, the 2nd level arrow
                        output = chr(ForecastText.bearing_arrow_font[set.wind_dir] + 0x10)
                    except KeyError:
                        # if the value wasn't found in ForecastText.bearing_arrow_font, use N/A
                        output = "-"
            elif datatype == "BI":
                if set.wind_speed.lower() == "calm":
                    output = self.getImagePathForBearing(ForecastText.bearing_icon["calm"])
                elif self.isNumeric(set.wind_speed) == True:
                    if (set.wind_dir == "VAR"):
                        output = self.getImagePathForBearing(int(ForecastText.bearing_icon[set.wind_dir]) + self.getWindLevel(set.wind_speed))
                    else:
                        try:
                            output = self.getImagePathForBearing(int(ForecastText.bearing_icon[set.wind_dir]) + self.getWindLevel(set.wind_speed)*16)
                        except KeyError:
                            # if the value wasn't found in ForecastText.bearing_icon, use calm code
                            output = self.getImagePathForBearing(ForecastText.bearing_icon["calm"])
                                        
            elif datatype == "WA":
                output = _(set.wind_dir_numeric)
            elif datatype == "WS":
                if self.isNumeric(set.wind_speed) == True:
                    if beaufort == True:
                        string = self.convertKPHtoBeaufort(set.wind_speed)
                    elif metrespersecond == True:
                        string = self.convertKPHtoMS(set.wind_speed)
                    elif imperial == True:
                        string = self.convertKilometresToMiles(set.wind_speed)
                    else:
                        string = set.wind_speed
                    string = string + speedunit
                else:
                    string = _(set.wind_speed.lower())
                output = string
            elif datatype == "WG":
                if self.isNumeric(set.wind_gusts) == True:
                    if beaufort == True:
                        string = self.convertKPHtoBeaufort(set.wind_gusts)
                    elif metrespersecond == True:
                        string = self.convertKPHtoMS(set.wind_gusts)                        
                    elif imperial == True:
                        string = self.convertKilometresToMiles(set.wind_gusts)
                    else:
                        string = set.wind_gusts
                    string = string + speedunit
                else:
                    string = _(set.wind_gusts) # need to define translations
                output = string
            elif datatype == "SR":
                try:
                    srtime = datetime.strptime(set.sunrise, "%I:%M %p")
                    output = srtime.strftime(self.config.TIME_FORMAT)
                except:
                    self.logError("Failed to extract sunrise datetime from data using standard code" + traceback.format_exc())
                    try:
                        self.logError("Attempting to extract sunrise datetime from data using python 2.4 compliant code")
                        srtime = datetime(*(time.strptime(set.sunrise, "%I:%M %p"))[0:6])
                        output = srtime.strftime(self.config.TIME_FORMAT)
                    except:
                        self.logError("Failed to extract sunrise datetime from data using python 2.4 compliant code" + traceback.format_exc())
                        output = set.sunrise
                                
            elif datatype == "SS":
                try:
                    sstime = datetime.strptime(set.sunset, "%I:%M %p")
                    output = sstime.strftime(self.config.TIME_FORMAT)
                except:
                    self.logError("Failed to extract sunset datetime from data using standard code" + traceback.format_exc())
                    try:
                        self.logError("Attempting to extract sunset datetime from data using python 2.4 compliant code")
                        sstime = datetime(*(time.strptime(set.sunset, "%I:%M %p"))[0:6])
                        output = sstime.strftime(self.config.TIME_FORMAT)
                    except:
                        self.logError("Failed to extract sunset datetime from data using python 2.4 compliant code" + traceback.format_exc())
                        output = set.sunset
                        
            elif datatype == "DL":
                srtime = None
                sstime = None
                
                try:
                    srtime = datetime.strptime(set.sunrise, "%I:%M %p")
                    sstime = datetime.strptime(set.sunset, "%I:%M %p")                  
                except:
                    self.logError("Failed to extract sunrise/sunset from data using standard code" + traceback.format_exc())
                    try:
                        self.logError("Attempting to extract sunrise/sunset from data using python 2.4 compliant code")
                        srtime = datetime(*(time.strptime(set.sunrise, "%I:%M %p"))[0:6])
                        sstime = datetime(*(time.strptime(set.sunset, "%I:%M %p"))[0:6])
                    except:
                        self.logError("Failed to extract sunrise/sunset from data using python 2.4 compliant code" + traceback.format_exc())

                if srtime != None and sstime != None:
                    delta = sstime - srtime              
                    output = self.getHoursMinutesStringFromSeconds(delta.seconds)
                else:
                    output = "??:??"
                    
            elif datatype == "MP":
                output = _(set.moon_phase) # need to define translations
            elif datatype == "MF":
                output = ForecastText.conditions_moon_font[set.moon_icon]
            elif datatype == "MI":
                #output = ForecastText.conditions_moon_icon[set.moon_icon]
                output = self.getImagePathForMoonCode(ForecastText.conditions_moon_icon[set.moon_icon])     
            elif datatype == "BR":
                if self.isNumeric(set.bar_read) == True:
                    if imperial == True:
                        string = self.convertMillibarsToInches(set.bar_read,2)
                    else:
                        string = set.bar_read
                    string = string + pressureunit
                else:
                    string = _(set.bar_read)
                output = string
            elif datatype == "BD":
                output = _(set.bar_desc) # need to define translations
            elif datatype == "UI":
                output = _(set.uv_index)
            elif datatype == "UT":
                output = _(set.uv_text)
            elif datatype == "DP":
                if self.isNumeric(set.dew_point) == True:
                    if imperial == True:
                        string = self.convertCelsiusToFahrenheit(set.dew_point)
                    else:
                        string = set.dew_point
                    string = string + tempunit
                else:
                    string = _(set.dew_point)
                output = string
            elif datatype == "OB":
                output = set.observatory
            elif datatype == "VI":
                if self.isNumeric(set.visibility) == True:
                    if imperial == True:
                        string = self.convertKilometresToMiles(set.visibility,1)
                    else:
                        string = set.visibility
                    string = string + distanceunit
                else:
                    string = _(set.visibility)
                output = string            
            elif datatype == "CN":
                output = set.city
            elif datatype == "CO":
                output = set.country
            elif datatype == "WM": #weathermap
                output = set.weathermap                
            else:
                self.logError("Unknown datatype requested: " + datatype)

        except KeyError, e:
            self.logError("Unknown value %s encountered for datatype '%s'! Please report this!" % (e.__str__(), datatype))
        
        # set the width if it is set, either left trimming or centering the text in spaces as requested
        if centeredwidth != None and self.isNumeric(centeredwidth) == True:
            if centeredwidth < len(output):
                output = output[:centeredwidth]
            else:
                output = output.center(int(centeredwidth))    
                            
        return output


    def getDatasetOutput(self, location, datatype, startday, endday, night, shortweekday, imperial, beaufort, metrespersecond, hideunits, hidedegreesymbol, spaces, minuteshide, centeredwidth):

        output = u""

        # Check if the location is loaded, if not, load it. If it can't be loaded, there was an error
        if not self.checkAndLoad(location):
            self.logError("Failed to load the location cache")
            return u""
        
        # define current units for output
        if hideunits == False:
            if imperial == False:
                tempunit = _(u"°C")
                speedunit = _(u"kph")
                distanceunit = _(u"km")
                pressureunit = _(u"mb")
            else:
                tempunit = _(u"°F")
                speedunit = _(u"mph")
                distanceunit = _(u"m")
                pressureunit = _(u"in")
                
            # override speed units if beaufort selected
            if beaufort == True:
                speedunit = u""
                
            if metrespersecond == True:
                speedunit = u"m/s"
        else:
            # remove degree symbol if not required
            if hidedegreesymbol == False:
                tempunit = u"°"
            else:
                tempunit = u""
                
            speedunit = u""
            distanceunit = u""
            pressureunit = u""

        if startday == None:
            output += self.getDatatypeFromSet(location, datatype, self.forecast_data[location].current, shortweekday, imperial, beaufort, metrespersecond, tempunit, speedunit, distanceunit, pressureunit, minuteshide, centeredwidth)
        else: # forecast data

            # ensure startday and enday are within the forecast limit
            
            if startday < 0:
                startday = 0
                self.logError("--startday set beyond forecast limit, reset to minimum of 0")
            elif startday > self.config.MAXIMUM_DAYS_FORECAST:
                startday = self.config.MAXIMUM_DAYS_FORECAST
                self.logError("--startday set beyond forecast limit, reset to maximum of " + str(self.config.MAXIMUM_DAYS_FORECAST))
                
            if endday == None: # if no endday was set use startday
                endday = startday
            elif endday < 0:
                endday = 0
                self.logError("--endday set beyond forecast limit, reset to minimum of 0")
            elif endday > self.config.MAXIMUM_DAYS_FORECAST:
                endday = self.config.MAXIMUM_DAYS_FORECAST
                self.logError("--endday set beyond forecast limit, reset to maximum of " + str(self.config.MAXIMUM_DAYS_FORECAST))
                
            for daynumber in range(startday, endday + 1):
                
                # if AUTO_NIGHT config is true then handle N/A output, by using the night option between 2pm and 2am, when the startday = 0. 
                if self.config.AUTO_NIGHT == True and self.options.startday != None and self.options.startday == 0:
                    now = datetime.now()
                    hour = now.hour
                    if hour > 13 and hour < 2:
                        night = True
                
                if night == True:
                    output += self.getDatatypeFromSet(location, datatype, self.forecast_data[location].night[daynumber], shortweekday, imperial, beaufort, metrespersecond, tempunit, speedunit, distanceunit, pressureunit, minuteshide, centeredwidth)
                else:
                    output += self.getDatatypeFromSet(location, datatype, self.forecast_data[location].day[daynumber], shortweekday, imperial, beaufort, metrespersecond, tempunit, speedunit, distanceunit, pressureunit, minuteshide, centeredwidth)
                    
                if daynumber != endday:
                    output += self.getSpaces(spaces)

        return output

    def getTemplateItemOutput(self, template_text):
        
        # keys to template data
        LOCATION_KEY = "location"
        DATATYPE_KEY = "datatype"
        STARTDAY_KEY = "startday"
        ENDDAY_KEY = "endday"
        NIGHT_KEY = "night"
        SHORTWEEKDAY_KEY = "shortweekday"
        IMPERIAL_KEY = "imperial"
        BEAUFORT_KEY = "beaufort"
        METRESPERSECOND_KEY = "metrespersecond"
        HIDEUNITS_KEY = "hideunits"
        HIDEDEGREESYMBOL_KEY = "hidedegreesymbol"
        SPACES_KEY = "spaces"
        MINUTESHIDE_KEY = "minuteshide"
        CENTEREDWIDTH_KEY = "centeredwidth"
        
        location = self.options.location
        datatype = self.options.datatype
        startday = self.options.startday
        endday = self.options.endday
        night = self.options.night
        shortweekday = self.options.shortweekday
        imperial = self.options.imperial
        beaufort = self.options.beaufort
        metrespersecond = self.options.metrespersecond
        hideunits = self.options.hideunits
        hidedegreesymbol = self.options.hidedegreesymbol
        spaces = self.options.spaces
        minuteshide = self.options.minuteshide
        centeredwidth = self.options.centeredwidth
        
        for option in template_text.split('--'):
            if len(option) == 0 or option.isspace():
                continue
            
            # not using split here...it can't assign both key and value in one call, this should be faster
            x = option.find('=')
            if (x != -1):
                key = option[:x].strip()
                value = option[x + 1:].strip()
                if value == "":
                    value = None
            else:
                key = option.strip()
                value = None
            
            try:
                if key == LOCATION_KEY:
                    location = value
                elif key == DATATYPE_KEY:
                    datatype = value
                elif key == STARTDAY_KEY:
                    startday = int(value)
                elif key == ENDDAY_KEY:
                    endday = int(value)
                elif key == NIGHT_KEY:
                    night = True
                elif key == SHORTWEEKDAY_KEY:
                    shortweekday = True
                elif key == IMPERIAL_KEY:
                    imperial = True
                elif key == BEAUFORT_KEY:
                    beaufort = True
                elif key == METRESPERSECOND_KEY:
                    metrespersecond = True
                elif key == HIDEUNITS_KEY:
                    hideunits = True
                elif key == HIDEDEGREESYMBOL_KEY:
                    hidedegreesymbol = True
                elif key == SPACES_KEY:
                    spaces = int(value)
                elif key == MINUTESHIDE_KEY:
                    if value != None:
                        minuteshide = int(value)
                    else:
                        minuteshide = -1
                elif key == CENTEREDWIDTH_KEY:
                    centeredwidth = value
                else:
                    self.logError("Unknown template option: " + option)

            except (TypeError, ValueError):
                self.logError("Cannot convert option argument to number: " + option)
                return u""

        #REMOVED
        # Check if the location is loaded, if not, load it. If it can't be loaded, there was an error
        #if not self.checkAndLoad(location):
        #    self.logError("Failed to load the location cache")
        #    return u""
        
        if datatype != None:
            return self.getDatasetOutput(location, datatype, startday, endday, night, shortweekday, imperial, beaufort, metrespersecond, hideunits, hidedegreesymbol, spaces, minuteshide, centeredwidth)
        else:
            self.logError("Template item does not have datatype defined")
            return u""

    def getOutputFromTemplate(self, template):
        output = u""
        end = False
        a = 0
        
        # a and b are indexes in the template string
        # moving from left to right the string is processed
        # b is index of the opening bracket and a of the closing bracket
        # everything between b and a is a template that needs to be parsed
        while not end:
            b = template.find('[', a)
            
            if b == -1:
                b = len(template)
                end = True
            
            # if there is something between a and b, append it straight to output
            if b > a:
                output += template[a : b]
                # check for the escape char (if we are not at the end)
                if template[b - 1] == '\\' and not end:
                    # if its there, replace it by the bracket
                    output = output[:-1] + '['
                    # skip the bracket in the input string and continue from the beginning
                    a = b + 1
                    continue
                    
            if end:
                break
            
            a = template.find(']', b)
            
            if a == -1:
                self.logError("Missing terminal bracket (]) for a template item")
                return u""
            
            # if there is some template text...
            if a > b + 1:
                output += self.getTemplateItemOutput(template[b + 1 : a])
            
            a = a + 1

        return output

    def writeOutput(self):
                
        if self.options.template != None:
            #load the file
            try:
                fileinput = codecs.open(os.path.expanduser(self.options.template), encoding='utf-8')
                template = fileinput.read()
                fileinput.close()
            except Exception, e:
                self.logError("Error loading template file: " + e.__str__())
            else:
                output = self.getOutputFromTemplate(template)
        else:         
            
            output = self.getDatasetOutput(self.options.location, self.options.datatype, self.options.startday, self.options.endday, self.options.night, self.options.shortweekday, self.options.imperial, self.options.beaufort, self.options.metrespersecond, self.options.hideunits, self.options.hidedegreesymbol, self.options.spaces, self.options.minuteshide, self.options.centeredwidth)
            
        print output.encode("utf-8")

    def logInfo(self, text):
        if self.options.verbose == True:
            print >> sys.stdout, "INFO: " + text

        if self.options.infologfile != None:
            datetimestamp = datetime.now().strftime("%Y-%m-%d %H:%M:%S") 
            fileoutput = open(self.options.infologfile, "ab")
            fileoutput.write(datetimestamp+" INFO: "+text+"\n")
            fileoutput.close()
            
    def logError(self, text):
        print >> sys.stderr, "ERROR: " + text
        
        if self.options.errorlogfile != None:
            datetimestamp = datetime.now().strftime("%Y-%m-%d %H:%M:%S") 
            fileoutput = open(self.options.errorlogfile, "ab")
            fileoutput.write(datetimestamp+" ERROR: "+text+"\n")
            fileoutput.close()

    def getText(self, parentNode, name):
        try:
            node = parentNode.getElementsByTagName(name)[0]
        except IndexError:
            raise Exception, "Data element <%s> not present under <%s>" % (name, parentNode.tagName)

        rc = ""
        for child in node.childNodes:
            if child.nodeType == child.TEXT_NODE:
                rc = rc + child.data
        return rc
    
    def getChild(self, parentNode, name, index = 0):
        try:
            return parentNode.getElementsByTagName(name)[index]
        except IndexError:
            raise Exception, "Data element <%s> is not present under <%s> (index %i)" % (name, parentNode.tagName, index)

    def getSpaces(self, spaces=1):
        string = u""
        for dummy in range(0, spaces):
            string = string + u" "
        return string

    def isNumeric(self, string):
        try:
            dummy = float(string)
            return True
        except:
            return False
        
    def parseBoolString(self, string):
        #return string[0].upper()=="T"
        
        if string is True or string is False:
            return string
        string = str(string).strip().lower()
        return not string in ['false','f','n','0','']

    def convertCelsiusToFahrenheit(self, temp, dp=0):
        value = ((float(temp) * 9.0) / 5.0) + 32
        if dp == 0:
            return str(int(round(value,dp))) # lose the dp
        else:
            return str(round(value,dp))

    def convertKilometresToMiles(self, dist, dp=0):
        value = float(dist) * 0.621371192
        if dp == 0:
            return str(int(round(value,dp))) # lose the dp
        else:
            return str(round(value,dp))

    def convertKPHtoBeaufort(self, kph, dp=0):
        value = pow(float(kph) * 0.332270069, 2.0 / 3.0)
        if dp == 0:
            return str(int(round(value,dp))) # lose the dp
        else:
            return str(round(value,dp))
        
    def convertKPHtoMS(self, kph, dp=0):
        value = float(kph) * 0.27777778
        if dp == 0:
            return str(int(round(value,dp))) # lose the dp
        else:
            return str(round(value,dp))
        
    def convertMillibarsToInches(self,mb,dp=0):
        value = float(mb)/33.8582
        if dp == 0:
            return str(int(round(value,dp))) # lose the dp
        else:
            return str(round(value,dp))
    
    def getWindLevel(self, speed):
        beaufort = int(self.convertKPHtoBeaufort(speed))
        if beaufort < 4:
            return 0
        elif beaufort < 7:
            return 1
        elif beaufort < 10:
            return 2
        else:
            return 3

    def getHoursMinutesStringFromSeconds(self,seconds):
        time = int(seconds)
        hours, time = divmod(time, 60*60)
        minutes, seconds = divmod(time, 60)
        output = str(hours).rjust(2,"0") + ":" + str(minutes).rjust(2,"0")
        return output

    def getImagePathForConditionCode(self, conditioncode):
        if self.isNumeric(conditioncode) == False:
            conditioncode = "25" # N/A image

        imagesrc = "%s/images/weathericons/%s.png"%(app_path, str(conditioncode).rjust(2,"0"))
        return imagesrc

    def getImagePathForMoonCode(self, mooncode):
        imagesrc = "%s/images/moonicons/%s.png"%(app_path, str(mooncode).rjust(2,"0"))
        return imagesrc
    
    def getImagePathForBearing(self, bearingcode):
        #TODO: Once gif supported properly in conky re-enable gif output
        #if int(bearingcode) > 0 and int(bearingcode) <= 4:
        #    fileext = "gif" # use animated gif for VAR output
        #else:
        #    fileext = "png"
            
        fileext = "png" #force to always be png until animated gifs are supported
        imagesrc = "%s/images/bearingicons/%s.%s"%(app_path, str(bearingcode).rjust(2,"0"),fileext)
        return imagesrc

    def getImageSrcForWeatherMap(self, location):
        imagetag = ""
        try:
            url = "http://www.weather.com/outlook/travel/businesstraveler/map/" + location

            self.logInfo("Fetching satellite image page from " + url)

            usock = urllib2.urlopen(url)
            html = usock.read()
        except Exception, e:
            self.logError("Error downloading the satellite image page: " + e.__str__()+"\n"+traceback.format_exc())
        else:
            regex = """<IMG NAME="mapImg" SRC="([^\"]+)" WIDTH=([0-9]+) HEIGHT=([0-9]+) BORDER"""
            result = re.findall(regex, html)
            if result and len(result) == 1:
                imagesrc, width, height = result[0]
        finally:
            usock.close()

        try:

            self.logInfo("Fetching satellite image from " + imagesrc)

            usock = urllib2.urlopen(imagesrc)
            img = usock.read()
        except Exception, e:
            self.logError("Error downloading the satellite image file: " + e.__str__()+"\n"+traceback.format_exc())
        else:
            # save the image using a uuid firname and contruct an image tag
            imgfilepath = "/tmp/weathermap_"+str(uuid.uuid1())+".jpg"
            imgfile = open(imgfilepath,'wb')
            imgfile.write(img)
            self.logInfo("Saved satellite image to " + imgfilepath)
 
        finally:
            usock.close()
            imgfile.close()

        return imgfilepath
    
def main():

    parser = CommandLineParser()
    (options, args) = parser.parse_args()

    if options.version == True:
        
        print >> sys.stdout,"conkyForecast v.2.12"
        
    else:
        
        if options.verbose == True:
            print >> sys.stdout, "*** INITIAL OPTIONS:"
            print >> sys.stdout, "    location:", options.location
            print >> sys.stdout, "    datatype:", options.datatype
            print >> sys.stdout, "    start day:", options.startday
            print >> sys.stdout, "    end day:", options.endday
            print >> sys.stdout, "    spaces:", options.spaces
            print >> sys.stdout, "    template:", options.template
            print >> sys.stdout, "    locale:", options.locale
            print >> sys.stdout, "    imperial:", options.imperial
            print >> sys.stdout, "    beaufort:", options.beaufort
            print >> sys.stdout, "    metrespersecond:", options.metrespersecond
            print >> sys.stdout, "    night:", options.night
            print >> sys.stdout, "    shortweekday:", options.shortweekday
            print >> sys.stdout, "    hideunits:", options.hideunits
            print >> sys.stdout, "    hidedegreesymbol:", options.hidedegreesymbol
            print >> sys.stdout, "    minuteshide:", options.minuteshide
            print >> sys.stdout, "    centeredwidth:", options.centeredwidth
            print >> sys.stdout, "    refetch:", options.refetch
            print >> sys.stdout, "    verbose:", options.verbose
            print >> sys.stdout, "    errorlogfile:",options.errorlogfile
            print >> sys.stdout, "    infologfile:",options.infologfile        
    
        forecastinfo = ForecastInfo(options)
        forecastinfo.writeOutput()

if __name__ == '__main__':
    main()
    sys.exit()
    
